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After correcting the original service problem, perform the following 
safety checks before releasing the set to the customer:

1.  Check the area of your repair for unsoldered or poorly soldered 

connections. Check the entire board surface for solder splashes and 
bridges.

2.  Check the interboard wiring to ensure that no wires are “pinched” or 

touching high-wattage resistors.

3.  Check that all control knobs, shields, covers, ground straps, and 

mounting hardware have been replaced. Be absolutely certain that 
you have replaced all the insulators.

4.  Look for unauthorized replacement parts, particularly transistors, 

that were installed during a previous repair. Point them out to the 
customer and recommend their replacement.

5.  Look for parts which, though functioning, show obvious signs of 

deterioration. Point them out to the customer and recommend their 
replacement.

6.  Check the line cords for cracks and abrasion. Recommend the 

replacement of any such line cord to the customer.

7.  Check the B+ and HV to see if they are specifi ed values. Make sure 

your instruments are accurate; be suspicious of your HV meter if sets 
always have low HV.

8.  Check the antenna terminals, metal trim, “metallized” knobs, screws, 

and all other exposed metal parts for AC leakage. Check leakage 
as described below.

Leakage Test
The AC leakage from any exposed metal part to earth ground and from 
all exposed metal parts to any exposed metal part having a return to 
chassis, must not exceed 0.5 mA (500 microamperes). Leakage current 
can be measured by any one of three methods.

1.  A commercial leakage tester, such as the Simpson 229 or 

RCA WT-540A. Follow the manufacturers’ instructions to use these 
instructions.

2.  A battery-operated AC milliammeter. The Data Precision 245 digital 

multimeter is suitable for this job.

3.  Measuring the voltage drop across a resistor by means of a VOM 

or battery-operated AC voltmeter. The “limit” indication is 0.75 V, 
so analog meters must have an accurate low voltage scale. The 
Simpson’s 250 and Sanwa SH-63TRD are examples of passive 
VOMs that are suitable. Nearly all battery-operated digital multimeters 
that have a 2 VAC range are suitable (see Figure A).

How to Find a Good Earth Ground
A cold-water pipe is a guaranteed earth ground; the cover-plate retaining 
screw on most AC outlet boxes is also at earth ground. If the retaining 
screw is to be used as your earth ground, verify that it is at ground 
by measuring the resistance between it and a cold-water pipe with an 
ohmmeter. The reading should be zero ohms.

If a cold-water pipe is not accessible, connect a 60- to 100-watt trouble- 
light (not a neon lamp) between the hot side of the receptacle and the 
retaining screw. Try both slots, if necessary, to locate the hot side on the 
line; the lamp should light at normal brilliance if the screw is at ground 
potential (see Figure B).

Trouble Light

AC Outlet Box

Ohmmeter

Cold-water Pipe

Figure A. Using an AC voltmeter to check AC leakage.

Figure B. Checking for earth ground.

To Exposed Metal
 Parts on Set

AC Voltmeter
(0.75 V)

Earth Ground

0.15 

µ

F

1.5 

k

Ω

The units in this manual contain a self-diagnostic function. If an error occurs, the STANDBY/TIMER LED will automatically begin to fl ash. The number 
of times the LED fl ashes translates to a probable source of the problem. A defi nition of the STANDBY/TIMER LED fl ash indicators is listed in the 
instruction manual for the user’s knowledge and reference. If an error symptom cannot be reproduced, the Remote Commander can be used to review 
the failure occurrence data stored in memory to reveal past problems and how often these problems occur.

Diagnostic Test Indicators
When an error occurs, the STANDBY/TIMER LED will fl ash a set number of times to indicate the possible cause of the problem. If there is more than 
one error, the LED will identify the fi rst of the problem areas.

Results for all of the following diagnostic items are displayed on screen. If the screen displays a “0”, no error has occurred.

Power does not turn on

Does not light

•

Power cord is not plugged in.

•

Fuse is burned out (F6001). (G Board)

•

Power does not come on.

•

No power is supplied to the TV.

•

AC Power supply is faulty.

+B overcurrent (OCP)*

2 times

•

H.OUT (Q8024) is shorted. (D Board)

•

+B PWM (Q8035, Q8038) is shorted.
(D Board)

•

Power does not come on.

•

Load on power line shorted.

+B overvoltage (OVP)

3 times

•

IC501 is faulty. (G Board)

•

IC5002 is faulty. (G Board)

•

Has entered standby mode.

Vertical deflection stopped

4 times

•

±

15V is not supplied. (D Board)

•

IC8003 is faulty. (A Board)

•

Has entered standby state after
horizontal raster.

•

Vertical deflection pulse is
stopped.

•

Power line is shorted, or
power supply is stopped.

White Balance Failure
(Not Balanced)

5 times

•

Video OUT (IC7101, IC7201, IC7301)
is faulty. (CR, CG, CB Board

s)

•

CRT drive (IC309) is faulty. (A Board)

•

Screen (G2) is improperly adjusted. **

•

No raster is generated.

•

CRT Cathode current detection
reference pulse output is small.

Low B OCP/OVP
(Overcurrent/Overvoltage) ***

6 times

•

+5 line is overloaded. (A, B Boards)

•

+5 line is shorted. (A, B Boards)

•

No picture

Horizontal deflection stopped

7 times

•

Q8035, Q8038 is shorted. (D Board)

High-voltage error

8 times

•

T8005 is faulty. (D Board)

Audio error

9 times

• ±

19V line is shorted. (A, B Boards)

•

IC708 is faulty. (A Board)

•

PS701 or PS702 is opened.
(A Board)

•

No sound

*

Ifa +B overcurrent is detected, stoppage ofthe vertical deflection is detected simultaneously. The symptom that is diagnosed
first by the microcontroller is displayed on the screen.

**

Refer to Screen (G2) Adjustments in Section 2-

2 ofthis manual

***

If TIMER or STAND BY indicator blinks six (6) times, unplug the unit and wait 10 minutes before performing the adjustment.

Lamp OFF : 
3.0 seconds

Lamp ON : 0.3 seconds

Lamp OFF : 0.3 seconds

*  One blink is not used for self-diagnosis.

•

EXAMPLE

<Diagnosis Items>  <Number of Blinks>

•

 +B overcurrent  

2 times

•

 +B overvoltage

3 times

•

 Vertical deflection stop

4 times

< FRONT PANEL >

TIMER/STAND BY indicator

Release of TIMER STAND BY indicator blinking
The TIMER/STANDBY indicator blinking display is released by turning OFF the power switch on the TV main unit or removing the plug from the 
power.

Self-Diagnosis Screen Displays
In cases of malfunctions where it is not possible to determine the symptom such as when the power goes off occasionally or when the screen 
disappears occasionally, there is a screen display on whether the malfunction occurred or not in the past (and whether the detection circuit operated 
or not) in order to allow confi rmation.

      
Screen Display Method
Quickly press the remote command button in the following order from the standby state.

  Display  

  Channel  5   

  Sound Volume* 

_

  

  Power ON 

 

 

 

 

 

*Note that this differs from entering the service mode (sound volume  +  )

SELF DIAGNOSIS

    2 : +B  OCP

N/A

    3 : +B  OVP

N/A

    4 : V STOP

0

    5 : AKB

1

    10 : WDT

24

Numeral "0" means that no fault
was detected.

Numeral "1" means a fault was detected
one time or more

Self-Diagnosis Screen Display
The results display is not automatically cleared.  In case of repairs and after repairs, check the self-diagnosis screen and be sure to return the 
results display to “ 0 ”. 

If the results display is not returned to “ 0 ” it will not be possible to judge a new malfunction after completing repairs.

1.  Power off (Set to the standby mode.)

2.   Display  

  Channel  5   

  Sound Volume  +   

  Power ON (Service Mode) 

3.  Channel  8   

   ENTER  (Test reset = Factory preset condition)

Method of Ending Self Diagnosis Screen
When ending the self-diagnosis screen completely, turn the power switch OFF on the remote commander or the main unit.

OCP 

Low B and +B line detect DET SHORT, and shut-down POWER ON RELAY.

 

Reset by turning power on/off.  In case of +B is loaded approx. 1.5A or more, microcomputer detects it via IC5005.

OVP 

In case of +B becomes approx. 150V or more, POWER ON RELAY shuts down and microcomputer detects it via IC5005.

 

Reset by turning power on/off just the same as OCP.

Low B 

Occurs when set +5V is out

V Stop 

In the case of the V Drive disappearing, Q8001

Q8001 detects it and shuts-down the POWER ON RELAY. The microcomputer detects it and 

 

causes the LED to blink.

AKB 

IK detection.  Makes LED blink when microcomputer doesn’t detect IK, returns of IC309 (CXA2150AQ) 20 seconds or more.

H Stop 

In case H DRIVE disappears, Q378 

Q378 detects it and shuts-down POWER ON RELAY. 

 

Microcomputer receives H Stop data from Q378 

Q378 and makes the LED blink.

HV Stop  In case HV becomes 33kV or more, IC8006 detects it and shuts-down POWER ON RELAY.
 

The microcomputer makes the LED blink.

Audio 

In case of DC component overlaps the output of Audio Amp., the microcomputer detects it and shuts-down POWER ON RELAY.

 

The microcomputer makes the LED blink.

49

53

43

24

45

44

31
28
29

25

58

35

34

5. AKB

5. AKB

4. V STOP

3. OVP

2. OCP

6. LOW B

8. HV.STOP

9. Audio

IC704

MAIN-CPU

IC309

CXA2150AQ

Y/C JUNGLE

D9101

TIMER/STANDBY

R765

IC702

EEPROM

IC703

EEPROM

Q714

+5V DETECT

Q378

H PULSE

Detector

IC8006

HV Detector

Q8001

V Pulse Detector

IC5005

 OVP Buffer

OCP Buffer

C Board

DC Detect

IC8003
V Drive

IC708

6. H STOP

BUS

26

30

OVP DETECT

OCP DETECT

Audio AMP